Simple method of improving harvest by nonthermal air plasma irradiation of seeds of Arabidopsis thaliana (L.)

Koga, Kazunori; Sarinont, Thapanut; Amano, Tsuyoshi; Seo, Hyunwoong; Itagaki, Naho; Hayashi, Nobuya; Shiratani, Masaharu

doi:10.7567/apex.9.016201

Cited by 88 publications

(85 citation statements)

References 33 publications

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“…For example, recent studies by Koga et al . showed that a single 3-minute treatment of dry seeds of Arabidopsis thaliana led to growth acceleration in all the growth stages, including shorter harvest period, a considerable increase in total seed weight, an increase in each seed weight, and a substantial increase in seed number21. Although the specific mechanisms by which plasma-generated physical and chemical effects influence the metabolic activity of the seed or the plant remain poorly understood, changes in morphological and sowing features of seeds11, dehydrogenase activity, superoxide dismutase (SOD) and peroxidase activity, photosynthetic pigments, photosynthetic efficiency and nitrate reductase activity have been reported12.…”

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confidence: 99%

Effects of Atmospheric-Pressure N2, He, Air, and O2 Microplasmas on Mung Bean Seed Germination and Seedling Growth

Zhou

Zhang

et al. 2016

Sci Rep

152

125

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Atmospheric-pressure N2, He, air, and O2 microplasma arrays have been used to investigate the effects of plasma treatment on seed germination and seedling growth of mung bean in aqueous solution. Seed germination and growth of mung bean were found to strongly depend on the feed gases used to generate plasma and plasma treatment time. Compared to the treatment with atmospheric-pressure O2, N2 and He microplasma arrays, treatment with air microplasma arrays was shown to be more efficient in improving both the seed germination rate and seedling growth, the effect attributed to solution acidification and interactions with plasma-generated reactive oxygen and nitrogen species. Acidic environment caused by air discharge in water may promote leathering of seed chaps, thus enhancing the germination rate of mung bean, and stimulating the growth of hypocotyl and radicle. The interactions between plasma-generated reactive species, such as hydrogen peroxide (H2O2) and nitrogen compounds, and seeds led to a significant acceleration of seed germination and an increase in seedling length of mung bean. Electrolyte leakage rate of mung bean seeds soaked in solution activated using air microplasma was the lowest, while the catalase activity of thus-treated mung bean seeds was the highest compared to other types of microplasma.

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confidence: 99%

Effects of Atmospheric-Pressure N2, He, Air, and O2 Microplasmas on Mung Bean Seed Germination and Seedling Growth

Zhou

Zhang

et al. 2016

Sci Rep

152

125

View full text Add to dashboard Cite

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“…It is important to clarify advantages and disadvantages of plasma treatments over other methods. One important advantage of plasma treatments is the fact that highly reactive and short lifetime species of high density without any thermal damage can be provided by plasmas [2][3][4][5][6][7][8][9][10][11][12][13][14]. Highly reactive species are more effective than stable chemicals and have much less residual harmful effects due to their short lifetime.…”

Section: Introductionmentioning

confidence: 99%

“…As one of such approaches using plasmas, we have shown that atmospheric pressure plasma treatments of seeds can boost crop yield, reduce cultivation time and improve agricultural productivity [7][8][9][10][11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

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Plant Growth Response to Atmospheric Air Plasma Treatments of Seeds of 5 Plant Species

et al. 2016

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We have investigated plant growth response to atmospheric air plasma treatments of seeds on their growth for 5 plant speces; Radish sprout (Raphanus sativus L.), rice (Oryza Sativa), Zinnia, Arabidopsis L. Thaliana and Plumeri. The average length of Radish sprout, rice, Arabidopsis Thaliana, Plumeria and Zinnia, are 250%, 80%, 60%, 30% and 20% longer than those without plasma treatments, respectively. We have obtained correlation between the growth enhancement and O 3 and NO x concentration. The optimum radical dose for the growth enhancement depends on plant species.

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“…12 Koga et al studied the effects of air nonthermal plasma irradiation on Arabidopsis thaliana seeds and reported that plasma irradiation led to a 12% increase in seed weight and a 39% increase in seed number. 13 Ling et al suggested that cold plasma treatment improves oilseed rape drought tolerance by improving antioxidant enzyme activities, increasing osmotic-adjustment products, and reducing lipid peroxidation, especially in drought-sensitive cultivars. 14 Será et al applied low-pressure discharge to stimulate germination of seeds using a microwave power supply.…”

Section: Introductionmentioning

confidence: 99%

Effect of Low-Pressure Radio Frequency Plasma on Ajwain Seed Germination

et al. 2016

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In this article, we study the effect of low-pressure radio frequency (RF) plasma on seed germination and growth of the ajwain plant. Ajwain seed is a medicinal plant that possesses antibacterial and antioxidant properties. Results show that RF plasma treatment of ajwain seed improves seed germination rate by ~11%. The best result was observed at a plasin seed wettability and plant growth parameters including shoot and root length improvement after plasma treatment.

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Simple method of improving harvest by nonthermal air plasma irradiation of seeds of Arabidopsis thaliana (L.)

Cited by 88 publications

References 33 publications

Effects of Atmospheric-Pressure N2, He, Air, and O2 Microplasmas on Mung Bean Seed Germination and Seedling Growth

Effects of Atmospheric-Pressure N2, He, Air, and O2 Microplasmas on Mung Bean Seed Germination and Seedling Growth

Plant Growth Response to Atmospheric Air Plasma Treatments of Seeds of 5 Plant Species

Effect of Low-Pressure Radio Frequency Plasma on Ajwain Seed Germination

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